Weidmüller 1005240000 VGM32-MS54ZE BS17-27 Metal Cable Gland in Industrial Cable Entry Systems
The Weidmüller 1005240000 VGM32-MS54ZE BS17-27 metal cable gland is designed for one of the most practical but often underestimated tasks in industrial installations: bringing a cable into an enclosure while maintaining strain relief, sealing performance, and long-term mechanical stability. In control cabinets, junction boxes, and machinery housings, cable entry points are exposed to vibration, dust, moisture, and repeated service activity. A poorly matched gland can compromise enclosure integrity, place stress on conductors, or shorten cable life over time.
This is why the Weidmüller VGM32-MS54ZE BS17-27 cable gland matters. It is part of a brass, nickel-plated cable gland family intended for standard industrial use. The product format indicates a straight cable gland in size M32, suitable for cable outer diameters from 17 mm to 27 mm. It is built around a durable metal body and supports dependable strain relief in environments where a plastic alternative may not offer the same mechanical confidence.
What the Product Type Tells You
The phrase Weidmüller 1005240000 VGM32-MS54ZE BS17-27 metal cable gland already reveals its functional role. “VGM” identifies the product as a metal cable gland, while the M32 thread size makes it relevant for larger cable entries that need a robust mounting interface. The BS17-27 designation points to the supported cable diameter range, which is an important installation parameter because correct clamping depends on matching the gland to the cable jacket.
From a technical standpoint, this product type is especially relevant where installers need a cable entry component that does more than simply fill a hole. The gland contributes to cable retention, helps prevent pull forces from reaching sensitive internal terminations, and supports a more consistent enclosure finish. In practical engineering terms, that improves both reliability and maintainability.
Core Technical Characteristics
The Weidmüller VGM32-MS54ZE BS17-27 metal cable gland is described as a straight brass cable gland with nickel-plated construction and a protection level listed as IP65. That means it is intended to help resist dust ingress and water jets when correctly installed. The metal body is valuable in industrial settings because it brings a combination of strength, dimensional stability, and resistance to demanding installation conditions.
The product is also associated with strain relief and concentric cable guidance. These features are important when cable movement, routing tension, or enclosure access may otherwise put the cable sheath under uneven pressure. In machine building, panel construction, and process automation, those details influence both installation quality and service life.
Where This Cable Gland Fits Best
A Weidmüller 1005240000 VGM32-MS54ZE BS17-27 cable gland is a sensible choice for larger industrial cables entering cabinets, terminal boxes, power distribution housings, and automation enclosures. It is particularly useful when the cable diameter falls within the 17 to 27 mm range and the project demands a metal gland rather than a lighter-duty entry component.
Because the body is brass with nickel plating, it aligns well with applications that prioritize mechanical durability and a professional enclosure interface. It can be relevant in factory automation, machinery wiring, utility control panels, and infrastructure systems where installation consistency matters just as much as electrical continuity inside the enclosure.
Why Correct Sizing Matters
One of the most common mistakes in enclosure assembly is selecting a gland only by thread size. In practice, cable outer diameter is equally important. The Weidmüller VGM32-MS54ZE BS17-27 cable gland is intended for a clearly defined cable diameter range, and that matters because a mismatch can reduce clamping performance and compromise sealing. Oversized cable entry hardware can also create unnecessary complexity during final assembly.
For engineers and panel builders, this means the product should be evaluated as part of the full cable-entry stack: enclosure wall thickness, thread compatibility, cable jacket diameter, and the required ingress protection. When those parameters line up correctly, the gland becomes a small but decisive contributor to system reliability.
More Than a Mechanical Accessory
It is easy to think of cable glands as simple accessories, but in industrial practice they perform a structural role. The Weidmüller 1005240000 VGM32-MS54ZE BS17-27 metal cable gland supports enclosure protection, protects cable routing quality, and helps preserve the working life of connected conductors. In many installations, these benefits are not dramatic in a single moment, but they become clear over years of operation and maintenance.
Weidmüller 1005240000 For more information about Weidmüller, it is worth reviewing the broader cable entry and connectivity portfolio in relation to enclosure design requirements.
Weidmüller 1005240000 FAQ
What is the main function of the Weidmüller 1005240000 VGM32-MS54ZE BS17-27 metal cable gland?
Its main function is to guide a cable safely into an enclosure while supporting strain relief and sealing performance. In industrial cabinets, that helps reduce mechanical stress on internal terminations and supports enclosure protection.
What cable size range is supported by the Weidmüller VGM32-MS54ZE BS17-27 cable gland?
This model is intended for cables with an outer diameter from 17 mm to 27 mm. That range is essential because proper clamping and sealing depend on matching the gland to the real cable jacket diameter used in the installation.
Why is brass nickel-plated construction important in a cable gland?
Brass offers strong mechanical performance, while nickel plating supports durability and surface protection in industrial environments. This combination is widely chosen where cable entries must remain stable under vibration, service work, and regular operating stress.
Is IP65 suitable for industrial panel applications?
Yes, IP65 is commonly relevant for industrial enclosures where resistance to dust and water jets is required. The final protection level always depends on correct installation, compatible enclosure design, and proper cable sizing.
Why does thread size alone not determine suitability?
Thread size tells you how the gland fits the enclosure opening, but it does not confirm whether the cable will be clamped correctly. The cable diameter range is equally important. A technically sound selection must consider both.